Silencer BEND R-300
BIC Rectangular Silencer Elbow – Effective Noise Reduction for Rectangular Duct Systems
The BIC rectangular silencer elbow is specifically designed to attenuate noise in rectangular ventilation and air conditioning duct systems. It ensures efficient sound reduction in duct bends, where airflow turbulence and acoustic reflection tend to increase.
Application:This product is suitable for use in both industrial and residential/commercial ventilation systems. It is commonly installed in technical rooms, heat recovery units, near fans, or in areas where mechanical noise must be reduced within a duct bend.
Construction and Materials:The silencer elbow consists of an outer galvanized steel casing fitted with integrated sound-absorbing baffles.
On request, it can be manufactured from stainless steel, aluminum, PE, PURAL, or PVC, depending on environmental and operational requirements.
The internal sound-absorbing cassettes use high-performance insulation material, such as Isover KVL acoustic wool, protected by a durable, abrasion-resistant fabric to prevent fiber release into the airflow.
Baffle ends can be standard rectangular or triangular, depending on the acoustic requirements and project specifications.
The insulation thickness and spacing between the baffles can be adjusted to meet the required sound attenuation performance.
Available cassette widths: 100 mm, 150 mm, 200 mm, 300 mm
Custom lengths and versions are available upon request to suit specific project needs
High sound attenuation performance in duct bends
Wide range of material options to suit various installation environments
Fully customizable to meet individual acoustic and dimensional requirements
Durable construction for long-term use
Easy integration into existing or new ductwork systems
The BIC rectangular silencer elbow is a reliable and adaptable solution that significantly improves acoustic comfort in ventilation systems while maintaining optimal airflow. It is an ideal component for projects requiring advanced noise control in confined or complex installation conditions.